JP2019213338A - Battery charger and battery system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lithium-ion battery charger having terminals for outputting a DC power source mainly to video equipment and camera equipment, and peripheral equipment, and a lithium-ion battery and a battery operation system charged by the charger. According to the present invention, there is provided a battery charger connectable to an AC power source, which is connectable to a battery, has a terminal for outputting a DC voltage, and uses the AC power source as a power source by a changeover switch. There is provided a battery charger configured to be switchable between outputting the DC voltage from a terminal and outputting the DC voltage from the terminal using the battery as a power source. [Selection diagram] Figure 1

Description

  The present invention mainly relates to a video device and a camera device, and particularly to a lithium ion battery charger having a terminal for outputting a DC power source to a peripheral device, a lithium ion battery charged with the charger, and a battery operation system.

Conventionally, various DC-driven devices such as cameras, monitors, and lighting are used in video shooting sites.
In terms of usage, the camera is operated for a long time using an AC adapter on a DC-powered video device using a battery or an AC adapter. Due to recent developments in battery technology, battery-powered shooting and recording have increased even for relatively long shootings. In addition, battery chargers having an AC adapter function by switching are increasing. Fig. 2 (16) IDX's power terminal without charging function, etc. The battery DC output connector adapter (power terminal without charging function) is available on the market to convert the battery into a DC output connector for operation. .
Fig. 3 (17) Nihon Video System Co., Ltd. Quad Charger DC15V power output is available only when using AC power. The battery power supply is nominally 14.4V and outputs almost the same voltage as the battery.

  In such a battery that is charged by a battery charger, the video device driven by DC is driven by a battery charged by the battery charger and the charging function of the battery charger that is AC-connected by the function of the battery charger or You can also select the DC output function and output DC power when AC power is connected. In addition, there is a battery DC output connector adapter that can connect two batteries and has a DC power output, but it has a function to output DC power to video equipment, camera equipment, and peripheral devices. Does not have a charging function.

  Currently, a commercially available battery charger and a battery charged by the charger can be switched between a charging mode and an AC-DC output mode.

  If such a battery charger and a battery charged with the charger are used, the charged battery can be operated by connecting it to a DC drive device. Although it can be operated with the AC-DC function that outputs DC from the power supply, the capacity of the battery charger function, such as a large-capacity camera device, is originally insufficient. I had to stop the camera device. Connected the charged battery to another battery DC output connector adapter to operate video equipment, camera equipment and peripheral equipment. If you use this type of battery DC output connector adapter, you can replace two batteries one by one without turning off the device when the battery capacity is low. Can be used. However, when a battery charged with a four-unit battery charger that can charge four at the same time is attached to a battery DC output connector adapter that can output DC from a battery that can be attached to two batteries, it moves from the battery charger one by one. It must be installed and operated. In addition, we cannot grasp battery condition. The old battery sometimes suddenly turned off even if the battery level remained. When shooting outdoors on a hot day, the internal temperature of the battery rose and the battery protection circuit worked, and the battery could be used during shooting. As the number of years passed, the condition of the batteries was unknown because the number of times the batteries had started to be used was unknown.

  The present invention has been made in view of such circumstances, and is mainly a lithium ion battery charger having a terminal for outputting a DC power source to video equipment and camera equipment, peripheral equipment, and lithium ion to be charged by the charger. A battery and a battery operation system are provided.

  According to the present invention, the battery charger is connectable to an AC power source, the battery is connectable, and includes a terminal that outputs a DC voltage, and the DC power is supplied from the terminal to the DC power source by the changeover switch. There is provided a battery charger configured to be capable of switching between outputting a voltage or outputting the DC voltage from the terminal using the battery as a power source.

  According to the present invention, for example, a rechargeable battery charger used for video equipment, camera equipment, peripheral equipment, and a lithium ion battery system charged by the charger, the battery charged by the battery charger is used as it is. A power connector that outputs DC power to video equipment, camera equipment, and peripheral equipment without moving the charged battery by the changeover switch is provided.

  As described above, a battery charger system having a charging mode or a DC power supply output mode by AC-DC conversion is commercially available for a battery charger used for video equipment, camera equipment, peripheral equipment and a battery system charged by the charger. However, none of them are very convenient. Only charge the battery or use it as an AC-DC adapter.

  In such a situation, the present inventor uses various DC-driven devices such as cameras, monitors, and lighting at the video shooting site, but it is often difficult to secure an AC power source at the outdoor site. Battery operation is relatively high. In addition, the battery charger's AC-DC power output function has insufficient output capacity. (There is not enough power to operate multiple devices simultaneously.) In the case of using a charged battery with a main charger in the market Noticed that the shooting time was very limited in operation, such as the problem of battery replacement time during operation. I felt it was bothersome to put the battery back on the battery DC output connector adapter and operate it. In addition, I noticed that the battery that I use repeatedly is used under harsh conditions every day, so I want a rough estimate of the battery life.

  Based on this awareness, the battery charger can be used as it is connected to a number of video devices, camera devices, and peripheral devices at the same time, without replacing or moving the battery charged with the battery charger. I realized that it is possible by providing a changeover switch from the DC output of the battery charger by a changeover switch. For example, in a charger that charges 4 batteries, 2 are used for video equipment, camera equipment, and peripheral equipment while 2 are charged. DC output is made by the changeover switch without moving the charged battery while it is attached to the charger while charging. In addition, when the battery is charged when an application is inserted into the smartphone, the battery position, the number of times the battery is charged, and the internal temperature can be checked with a charger connected to the network. By long pressing the amount button, the mobile phone and the battery can directly communicate to understand the information inside the battery, thereby finding that the operation using the battery can be improved, and the present invention has been completed. It was.

  If this battery charger and battery are used, a power output using a plurality of batteries can be performed by a terminal for outputting DC power to video equipment, camera equipment, and peripheral equipment, and long-time shooting can be performed.

  Further, according to the present invention, if a battery charger and a battery are used, the condition of the battery can be grasped, and there is an advantage that a large-scale shooting such as a switcher system using a video device or a camera device can be operated safely.

The battery charger of one embodiment of the present invention and the operational connection state of a battery are shown. The external appearance of the battery DC output connector adapter of the conventional use is shown. The external appearance of the conventional use charger system is shown.

1. Overall Configuration FIG. 1 shows a state in which a battery charger and a battery are connected in an operational connection state according to an embodiment of the present invention.

1 As shown in Fig. 1, (AA) battery charger connected to AC power source with battery charging system in operational connection state, (S) selector switch (battery charging mode, OFF, AC-DC output mode) Is equipped.
(S) When the changeover switch (battery charge mode, OFF, AC-DC output mode) is set to AC-DC output mode (R) DC6 power output connector (7) Enables the camera to be driven by AC power ing.
2 (S) When the changeover switch (battery charge mode, OFF, AC-DC output mode) is set to battery charge mode (C) Charge / Battery 1 output control switch is set to (BB) Battery 1, battery charge mode (C) When the charge / battery 1 output control switch is switched from the battery to the DC output, the power supply of the battery mounted from the connectors (L) to (Q) can be output.
3 In the example of FIG. 1, four batteries can be charged, and the four batteries can be individually switched between the charging mode and the battery output mode. In other words, (S) changeover switch (battery charge mode, OFF, AC-DC output mode) is set to battery charge mode (C) charge / battery 1 output control switch, (D) charge / battery 2 output control switch, (E ) Charging / Battery 3 output control switch (F) Charging / Battery 4 output control switch Battery when the output control switch is set to (BB) Battery 1, (CC) Battery 2, (DD) Battery 3, (EE) Battery 4 (C) Charging / Battery 1 output control switch, (D) Charging / Battery 2 output control switch, (E) Charging / Battery 3 output control switch (F) Charging / Battery 4 output control switch output By setting the control switch to the (T) power supply section on the connection side, (L) DC1 power output connector, (M) DC2 power output connector, (N) DC3 power output connector, (O) DC4 power output connector Compactors, (P) DC5 power output connector, power can be output from (Q) DC6 power output connector.
(C) Charging / Battery 1 output control switch, (D) Charging / Battery 2 output control switch, (E) Charging / Battery 3 output control switch (F) Charging / Battery 4 output control switch Output control switch Battery is switched between output mode and charging mode, while charging (BB) battery 1 and (CC) battery 2 from (DD) battery 3 (EE) battery 4 through (T) power distribution part, (L) DC1 power output connector, (M) DC2 power output connector, (N) DC3 power output connector, (O) DC4 power output connector, (P) DC5 power output connector, (Q) DC6 power output connector it can. In other words, two can be used with the power output from the battery while charging two.
(C) Charging / Battery 1 output control switch,
(D) Charging / Battery 2 output control switch,
(E) Charging / Battery 3 output control switch
(F) Charging / Battery 4 output control switch By using the output control switch in combination with each battery being switched between the output mode and the charging mode, it is possible to select the battery to be output while charging.

(AA) Battery charger (G) External LAN connection / wireless communication module and (BB) Battery 1, (CC) Battery 2, (DD) Battery 3, (EE) Battery 4 (8) Wireless communication module 1, (8) Wireless communication module 2, (9) Wireless communication module 3, (10) Wireless communication module 4 (AA) Battery charger (U) AC connected and in charging mode
The battery communicates with the battery charger, and the battery information (location, number of charges, internal temperature, etc.) is sent to the charger (O) information is sent to the smartphone via (G) external LAN connection / wireless communication text message.

  Next, FIG. 1 is an example for realizing the functions of the present embodiment, and the circuit configuration may be different as long as similar functions can be realized.

  FIG. 1 is an example for realizing the function of the present embodiment. If the same function can be realized, the type of the battery is not limited to the lithium ion battery and may be other types of batteries. Good.

  With the battery charging system described above, the method of using a DC power source in video equipment, camera equipment, and peripheral equipment is greatly improved.

AA battery charger
BB battery 1
CC battery 2
DD battery 3
EE battery 4
FF smartphone (cell phone)
A AC-DC converter
B Charge control circuit
C charging / battery 1 output control switch
D charge / battery 2 output control switch
E charge / battery 3 output control switch
F charge / battery 4 output control switch
G External LAN connection / wireless communication module
H Battery adapter
I Battery adapter
J Battery adapter
K battery adapter
L DC2 power output connector
M DC2 power output connector
N DC3 power output connector
O DC4 power output connector
P DC5 power output connector
Q DC6 power output connector
R DC6 power output connector
S selector switch (battery charge mode, OFF, AC-DC output mode)
T Power distribution unit
U AC power
1 Camera
2 Camera
3 Lighting equipment
4 Recorder
5 Monitor
6 Switcher
7 Camera
8 Wireless communication module 1
9 Wireless communication module 2
10 wireless communication module 3
11 Wireless communication module 4
12 pushbutton switch 1
13 pushbutton switch 2
14 push button switch 3
15 push button switch 4
17 Nihon Video System Co., Ltd. 4-unit charger DC15V power output possible only when using AC power

Claims (5)

A battery charger that can be connected to an AC power source,
Battery is connectable,
It has a terminal that outputs DC voltage,
A battery charger configured to be able to switch between outputting the DC voltage from the terminal using the AC power source as a power source and outputting the DC voltage from the terminal using the battery as a power source by a changeover switch. The battery charger according to claim 1,
A battery charger that can connect two or more batteries. The battery charger according to claim 2,
A battery charger that communicates wirelessly in conjunction with a mobile phone application and allows the location of the battery being charged and the condition of the battery to be confirmed on the mobile phone. A battery system comprising the battery charger according to any one of claims 1 to 3,
A battery system in which a battery charged by the battery charger directly communicates with an application of a mobile phone and communicates wirelessly so that the condition of the battery being charged, the number of times of charging, an internal temperature, and the like can be confirmed on the mobile phone. A battery system comprising the battery charger according to any one of claims 1 to 3,
A battery system capable of directly displaying and confirming a battery condition by directly using a mobile phone application by pressing and holding a remaining amount button of a battery main body charged by the battery charger.